Supervised in home testing method and apparatus for personal pathogen status verification at point of entry into an area of congregation

ABSTRACT

A supervised testing system and system for personal pathogen status verifying allows an entity to control access to an area of congregation (AOC) at one or more points of entry (POE) is a configurable manner. In one embodiment, the system may be used for the SARS-CoV-2 virus, but may be similarly used for other pathogens.

RELATED APPLICATIONS

This application claims the benefit under 35 USC 120 and is acontinuation of U.S. patent application Ser. No. 17/470,938 filed Sep.9, 2021 that in turn claims the benefit under 35 USC 120 and is acontinuation of U.S. patent application Ser. No. 17/235,449 filed Apr.20, 2021 that in tum claims priority under and the benefit of 35 USC119(e) of U.S. Provisional Application No. 63/013,119, filed Apr. 21,2020, and which is incorporated herein by reference.

FIELD

The disclosure relates generally to a system and method for verifyingpersonal pathogen status.

BACKGROUND

Mitigation methods employed by most countries during the COVID-19pandemic have included rules reducing close-proximity interaction amongindividuals (or a group of people living together) and all otherindividuals (or groups). These “social distancing” (also “physicaldistancing,” and “stay-at-home”) rules include limits on the size ofgatherings and the minimum distance to be maintained among people. Someindoor businesses can make accommodations to adhere to these rules. Forexample, supermarkets can limit the number of customers allowed insideand can place markings on the floor to maintain separation in checkoutqueues. Other businesses, such as airlines, theaters, and restaurants,are typically not economically viable with the low loading (numbers ofcustomers permitted on an airplane or in a restaurant with socialdistancing) required to physically distance their customers.

Governmental mitigation orders, recommendations, and the general fear ofcontracting COVID-19 has effectively shut down large segments of theeconomy including schools, restaurants, airlines, theaters, amusementparks, hotels, and ride sharing services.

After the rate of transmission is sufficiently suppressed by mitigation(Effective R(0) driven below 1 for long enough to achieve containment),societies worldwide will balance the economic and public healthimplications of relaxing mitigation orders. When a vaccine is availableand widely deployed, or infections progress, to the point of providingherd immunity, economic activity can resume to the level it was beforethe pandemic. That time may be from one to two years after the pandemicbegan, and should SARS-CoV-2 mutate in a way that bypasses theprotection conferred by a vaccine or previous infection, the pathogenmay become a recurring long-term issue. Even in the best-case scenariowith a vaccine ending the scourge, continuing strict social distancingmitigation while waiting for the vaccine to become widely available willresult in many businesses, especially capital intensive businesses suchas airlines, going bankrupt. Restarting them at that future point intime, would require enormous capital and human effort. It is anticipatedthat most societies will relax mitigation orders before the herdimmunity point is reached. During this time period, many people willcontinue to protect themselves and their families by shunning higherrisk activities, such as flying or visiting crowded venues.

To quell the fears of customers, businesses could restrict admission topeople who have recently tested negative for viral infection and/or haveantibodies that indicate they have already recovered from COVID-19and/or have received a vaccination. There is currently no known systemavailable to allow businesses to efficiently verify customer infectionstatus and it is to this end that the disclosure is directed.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a diagram showing an implementation of a personal pathogenstatus verification system and method for personal pathogen statusverification.

DETAILED DESCRIPTION OF ONE OR MORE EMBODIMENTS

The disclosure is particularly applicable to a personal pathogenverification system that may be used to SARS-CoV-2 (covid-19) and it isin this context that the disclosure will be described. It will beappreciated, however, that the system and method has greater utility,such as to any other pathogens whose status can be tracked and reportedfor a user.

The system conveys personal infection and/or infectability and/orvaccination status at the point of entry (POE) into an area ofcongregation (AOC) including a building, campus, business, venue,transportation vehicle, etc. The system limits AOC entry to qualifiedindividuals, typically those who are infection-free. Businesses whodeploy the system can attract customers who are fearful of close contactwith other customers of unknown infection status.

There is precedence for the efficacy of assuaging fear among customers.For example, when a passenger boards an airplane, any fear they may haveabout other passengers carrying weapons or explosives are assuaged bythe rigor of TSA passenger checks. Without such assurance, far fewerpeople would choose to fly. With similar motivation, the system can beused by TSA, an airline at check-in (before arrival at the airport or atthe airline's check-in counter), or another entity at airport entrances,to ensure all passengers that every other passenger boarding theirflight has recently been verified as not carrying SARS-CoV-2.

In one embodiment, other verifiable personal conditions may also be aninput into the entry criteria to provide safety, for example othermedical personal information such as non-pathogen communicable diseaseinformation, as well as non-medical personal information such aspersonal criminal records.

In one embodiment, a computing device executing an app, such as a mobilephone and/or web-based application, permits a person (user) to locate apathogen (such as SARSCoV-2) testing facility, schedule a test, and havethe results of their test returned to the system. An alternateembodiment includes a testing unit placed in the user's home or inproximity of the business AOC eliminating the need for a third-partytesting lab. When subsequently attempting to enter an AOC through a POE,the user presents a QR code on their computing device, such as a mobilephone, that is scanned by the POE gatekeeper using their mobile phone orother Internet connected scanning device. A system calculated PASS/BLOCKis presented to the gatekeeper on their display device (either theirmobile phone or a display device linked to their scanning device). Insome elevated security cases, a rule-driven subset of information drawnfrom the user's test results and their identifying information (such asname, date of birth, height, driver's license number, photo, etc.) ispresented to the gatekeeper.

Each POE may have a set of verification rules. For example, rules for aparticular POE may require that identification (driver's license, etc.)be presented that matches the test results. For some POEs, a code willbe presented to the gatekeeper and the same code will be sent to theuser via SMS or through the application. The user must then say the codeor show it to the gatekeeper to confirm the QR code is displayed on thedevice on which it was generated. AOE and/or POE specific rules areexecuted by the system to control entry and other enhanced securityfeatures (see further description under the Usage at Point of Entrysection below).

Note that an AOC may have multiple POEs. The rules may differ amongPOEs. For example, employees may enter through one set of POEs andcustomers may enter through other POEs. The POE rules for employees maybe different than POE rules for customers. Rules may differ fordifferent classes of users passing through the same POE. The system canapply different entry criteria rules when an employee or a customer isattempting to pass through the POE.

The testing criteria for a POE can vary depending on the risk associatedwith the AOC on the “clean side” of the POE. For example, the risk ofinfection may be higher during a 12-hour flight on a fully loaded AirbusA380 than the risk of infection at a typical restaurant. The system andmethod execute AOC specific rules that are stricter for higher riskAOCs. For example, to enter an airport, or to board a 12-hour flight, arule may require a negative SARS-CoV-2 test within 3 days. To enter arestaurant or sporting event, or to board a I-hour flight, a lessrestrictive rule may require a negative SARS-CoV-2 test within 5 days.The risk and resulting rules for an AOC can be determined byepidemiological study. An entity managing an AOC may set rules morerestrictive than epidemiological or governmental orders/recommendationsshould they deem it advantageous in the attraction of customers,protection of employees, or for other reasons.

The system retains a history of operational events that can be used forauditing, governmental reporting, epidemiological study, regulatorreporting, and other purposes.

The system can be used at the openings in physical boundaries (POEs)around an AOC or it can be used in conjunction with an existingticketing/pass-generating system (ticketing system) through anelectronic (or other) integration between the system of the inventionand the ticketing system. One example of the operation of such anintegration would be when a ticket is scanned at a POE, the ticketingsystem can make a real-time query to the system of the invention toconfirm the user is qualified to enter. This query can be keyed by theuser's telephone number or other unique identifier known by both theticketing system and the system of the invention.

AOCs for which the system can be used may include spaces with no otherpeople present, for example spaces that must be maintained virus free,such as medical labs, clean rooms, and delivery vehicles. This use casecan be supported by the system without a gatekeeper, instead using amanned or unmanned scanner at the POE. A system-controlled AOC caninclude a person's vehicle, in which case the owner of the vehicle wouldverify the negative test status of the mechanic they employ to work ontheir vehicle. This use case can also be implemented by the shopproviding mechanical services that employs the system to periodically(manually or automatically using a system provided employee statusdashboard) confirm the status of their employees allowing them toadvertise the virus-free status of their workers. The employee statusdashboard can be used to identify employees out of compliance and toprompt employees to complete testing. This system use case is notlimited to repair shops and can be applied to any business withemployees who occupy spaces or handle objects belonging to customers, orto be used by customers (rental cars, for example).

The system can be used by individuals to mutually confirm each other'sstatus (two or more individuals) when meeting in public or in private.This confirmation can be performed using the scan of each participantuser's mobile phone displayed QR code by another participant. Theconfirmation can also be performed by a 3rd party system, such as adating website/application. The system can be used socially amongfriends. The system can be used for transactional meetings amongerstwhile strangers such as between someone hired to visit a home(plumber, handyman, appliance installer, house cleaners, babysitter,etc.) and the resident.

AOCs for which the system can manage POEs include, but are not limitedto, airplanes, airports, restaurants, transportation vehicles (forpassengers and employees), buildings, schools, campuses, geographicregions (cities, counties, states, countries, etc.), hotels, lodgingrentals (for example VRBO and Airbnb), retailers, ride sharing services,delivery services (including parcel and on-demand food and productdelivery), convention centers, concert I show venues, theaters, sportingevent venues (stadium, gymnasium, etc.), warehouses (employees andvisitors), hospitals, nursing homes, cruise ships, festivals, repairshops, veterinary clinics, doctor's offices, dentist's offices,hair/nail salons, massage parlors, amusement parks, and casinos.

In all cases, users (in the role of a passenger, customer, participants,etc.) and AOC agents (typically employees or contractors) may bequalified by the system. Rules for users and for AOC agents may bedifferent and can be set by the entity managing the AOC specific to theclass of person to be admitted or the POE through which they enter theAOC.

In a restaurant use case, a restaurant can use the system to offer a“clean night” where only verified negative status individuals arepermitted entry. The system can be used at the front door of therestaurant (POE), or integrated with the restaurant's reservation system(for example, OpenTable or Yelp). In a ride sharing use case, a ridesharing service's driver and passenger(s) may exchange verificationsbefore initiating a ride that may happen at pick-up time or throughelectronic integration when the ride is scheduled. A business(restaurant, theater, concert venue, sporting event, hotel, etc.) mayoffer classes of occupancy such as, “immune,” “verified negative,” or“open.” The system would be deployed at POEs surrounding all but the“open” area.

The use of the words “test” and “testing” in this application should beconstrued to include the confirmed execution of other medicalprocedures, such as vaccination. It should also be construed to includemedical conditions and genetic markers making a person more or lesssusceptible to infection. It should also be construed to includeself-reported health history and current status, including the presenceor absence of specific symptoms. The system therefore can convey thetest results for the presence of pathogens, test results for theantibodies against pathogens, a user's vaccinations against pathogens,and other qualifying or disqualifying information. The system cansupport a multitude of test results along with a user's vaccination andhealth history.

The system can be employed at geographic borders to qualify a user'sentry into a controlled area. In the case of International borders,vaccination status has typically been conveyed using a paperInternational Certificate of Vaccination. The system can replace theInternational Certificate of Vaccination allowing more accurate, andrapid checking at borders. The system can be employed at time of entry,by an airline (or other International transport service) at check-in, bya pre-arrival visa issuing agency, or by other means.

FIG. 1 is a diagram showing an implementation of a personal pathogenstatus verification system 100 and method for personal pathogen statusverification. The system may include one or more testing/vaccinationfacilities 102 that can schedule a test or vaccination for a user andreceive payment and communicate the test/vaccination results (or aconfirmation of status) to one or more parties who are part of thesystem 100. As shown in FIG. 1, the parties may include, in someembodiments, a user who wishes to access an AOC through a POE onepathogen status is verified, a POE access employee (gatekeeper), theentity that manages the AOE and the one or more POEs and government orregulatory agencies 104. As discussed above, for certain embodiments, agatekeeper may not be used such as when accessing a secure locationinside of a company. The entity 106 managing the AOC to be controlled byone or more POEs may have a status dashboard that shows itsemployee/agent status. Furthermore, each entity 106 may provideconfiguration rules that govern how the pathogen status verificationsystem operates for the particular entity as discussed above.

The system 100 may further include a safe entry verification system 108that communicates with the testing/vaccination facilities 102, thegovernment agencies 106 and each entity 106. The safe entry verificationsystem 108 (and each of its elements) may be implemented as one or morecomputer systems (server computers, mainframes, blade servers, etc.) orcloud computing resources that has at least one processor and memorythat stores a plurality of lines of computer code/instructions that areexecuted by the processor so that the safe entry verification system 108(or the at least one processor) is configured to perform the processesand operations of the safe entry verification system 108 discussedbelow. The safe entry verification system 108 may include user services108A that has a database 108B that contains user identification and testresults wherein the user services 108A communicates with eachtest/vaccine facility 102. The safe entry verification system 108 mayhave a transaction database 108C that communicates data from the safeentry verification system 108 to the agencies 104. The safe entryverification system 108 may also have a point of entry (POE) system 108Dthat provides POE services and is connected to the user services 108B,the transaction history database 108C and each entity 106. Thus, oneoperation performed by the POE system 108D is to configure the POEoperation for each entity 106 based on the configuration and provide POEdata to the entity 106 to display on the dashboard.

Sign Up and Testing/Vaccination

A user who wishes the gain access to a particular AOC by an POE may signup for the system and its services using a computing device 110 (such asa mobile device, smart phone, phone, desktop computer, laptop computer,tablet computer, etc.). The user signs up for the service, typicallymotivated by their anticipated entry into a specific AOC. The userspecifies the AOC (if any) and the system displays the requirements forentry into the AOC. The user schedules the required tests and/orvaccinations through the system (or outside of the system either byreferral from the system, or by other means) and supplies necessaryidentifying information. Payment can be made through the system ordirectly to the testing/vaccination facility. Some businesses, such asairlines, may subsidize testing for their customers. A governmentalagency may also implement subsidy programs. The system can settle bothtypes of subsidy. Test results are returned to the system by the testingfacility either through electronic integration with the facility'ssystem(s), through electronic integration with the testing equipment inuse at the facility, or by manual reporting using the system providedtest facility portal. In a similar fashion, vaccination confirmationsare reported to the system by a vaccination facility.

The test results from the facility 102 are matched to the user. If thesystem scheduled the test, this matching is performed by test ordernumber (generated by the system or by the testing lab). Furtherconfirmation is made by matching name, telephone number, social securitynumber, or other identifying information. If there is no electronicintegration with the testing facility (whether or not the user scheduleda test through the system), then the test may be imported byscan/photograph, by manual (3rd or 1^(st)) party entry, and matching atest result to the user is performed by confirming as many useridentifiers and test result identifiers as are available. Theseidentifiers include username, address, telephone number, social securitynumber, GPS location at time of test, age, gender, TSA KTN (KnownTraveler Number), and other identifiers. If the testing was prompted bythe user's intention to enter a specific AOC, an AOC generatedidentifier may also be associated with the user and/or the test. Forexample, an airline reservation number. In some use cases, the systemautomatically forwards test results to the AOC where it can be used toissue a ticket or permission to enter within an AOC defined time period.The system confirms manually entered test results using anti-fraudimaging techniques, automated or manual phone calls for verification,and other methods.

In the preferred embodiment, the system retrieves test result bycollecting testing facility credentials from the user and acting astheir proxy to sign into their account with the testing facility tosimulate the manual retrieval of test results. The system performs thisoperation using software located on one of a set of servers or from theuser's mobile phone. The retrieval can follow prescribed web navigationpaths to locate the test result or it employs Artificial Intelligencetechniques to locate the test record. In some cases, the user will beprompted to guide the system to the test results and the system will“learn” from this guidance. If the testing center reports results to acentralized agency, such as a state health department, the system mayinterrogate the agency's database to collect test results instead of, orin addition to, the testing center. The test results are parsed toextract the minimal information necessary for system operation therebymaximizing user privacy. The pertinent portion of test results areencrypted during storage. An alternate embodiment includes a PersonalTesting Unit (PTU) that can be placed in a person's home or in proximityof a business AOC eliminating the need for a third-party testing lab. Inthis embodiment, the system associates test results with the testedperson. Test results from the PTU are moved to other components of thesystem via the scanning of a matrix barcode (QR code, etc.), Bluetooth,Wi-Fi, or another conveyance method.

Usage at a Point of Entry

When approaching a POE of an AOC, the user may use a computing device112 (that may be the same as user previously or a different mobilephone) and opens the mobile phone application (associated with the safeentry verification system 108). A personal time-limited unique code(118) is displayed in the application. The unique code may be a QR codein one embodiment, but may be any other code/image/display (including,but not limited to, a barcode, matrix barcode, or a customtwo-dimensional barcode) that accomplishes the same result of providingthe user's test/vaccination status at the POE. If a geofence wasspecified (116) by the entity managing the AOC, a QR code that isrestricted for use at that POE/AOC will be displayed instead of theuser's more generic personal QR code. If there is a unique QR code forthe POE, then The generic QR code is not valid for this POE which is anoptional enhanced security measure.

The gatekeeper scans the code (120) using a scanning device 114 (such asa mobile phone or other scanning device, or any mobile phone with acamera that supports QR code to browser URL execution is sufficient) ofthe gatekeeper. In the simplest case, the system displays an ALLOW orDENY message 122A, 122B on the gatekeeper's device 114. The result isalso displayed on the user's device 112. Under more restrictive AOCrules, further confirmation must be made by the gatekeeper. Instructionsare displayed on the gatekeeper's device 114 (124B) and the user'smobile phone (124A). If the rules require an identificationconfirmation, the user's name (and if specified by AOC rules, a photo ora redacted scan of their driver's license or other ID) is displayed formatching against their physically presented ID. Optionally, a rule canrequire a real-time confirmation that the QR code displaying mobilephone belongs to the user. This is performed by sending a code to theapplication (or via SMS) to the user's mobile phone. The gatekeeper isalso shown the code on their mobile phone. The gatekeeper confirmsidentification and/or code match and selects “PASS” or “BLOCK” dependingon the identification and/or code confirmation. If “BLOCK” is mistakenlypressed by the gatekeeper or if the user misspeaks the code, the entiretransaction can be repeated. The system provides an optional mobilephone application for gatekeepers to streamline the scanning process.

In use cases that require the gatekeeper to check a user'sidentification beyond name match, a photograph may be displayed on thegatekeeper's mobile device. This photograph, used for visual identityconfirmation, can be extracted from public records, such as a DMVdatabase or it can be uploaded by the user by scanning their driver'slicense or other identification document. Other identifying attributesof the user may be displayed to aid the gatekeeper such as age, height,weight, etc.

In some embodiments, the system 100 executes AOC specific rules that arestricter for higher risk AOCs. For example, to enter an airport, a rulemay require a negative SARS-CoV-2 test within the past 3 days, and toenter a restaurant a rule may require a negative SARS-Co V-2 test withinthe past 5 days. When passing through a POS, the system applicationinforms the user of the entry criteria in effect inside of the AOCallowing the user to take any enhanced precautions they deem necessary.

In cases where the system is used without a formal AOC, individual usersare able to present their personal QR code and to scan each other's QRcodes. In the preferred embodiment, this use case displays results onthe user's mobile phone and not on the scanner's mobile phone. Thescanner will get confirmation that the scan completed along with anotification to look at the user's mobile phone for results. This is toenhance privacy and prevent the scanner from screen grabbing the user'stest results. In this use case, the user's first name, pertinent testresults, and date/time of testing are displayed. One use case for thismode of operation is the exchange of sexually transmittable disease testresults.

Throughout this application the viral pathogen SARS-CoV-2 and thedisease it causes, COVID-19, are used as currently pertinent examples.Alternate embodiments of the system 100 include any testable pathogensand the diseases they cause along with any vaccinations against anycommunicable diseases.

The tests described in this application may be performed using qPCR,nucleic acid detection, or any other method known now or developed inthe future that detect viral, bacterial (or other) pathogens present ina user's body. Also included are tests for the presence of antibodiesthat might confer immunity to the user. Acceptable specific tests (typeof test, machine used, reagents used, number and location of viral RNAregions targeted, etc.) and result thresholds can be specified byAOC/POE configuration rules.

In an alternate embodiment, other methods of communicating between theuser's mobile phone and the gatekeeper are employed, including Bluetoothcommunication, SMS exchange. In another alternate embodiment, the useris identified through biometrics (or other means, with or without amobile phone) at the POE.

The system supports use cases requiring recent negative virus testresults, and/or positive antibodies test results and/or vaccinationand/or personal genetic markers, and/or personal characteristicsincluding pre-existing conditions, and/or detected travel outside (orinside) a set of geofenced areas. Flexibility is designed into thesystem to anticipate unforeseen use cases that include differentcombinations of test results, vaccinations, and personal characteristics(such as genetic markers and health conditions) that can be calculatedto determine suitability to pass through a POE. For example, thepresence of antibodies does not exclude the possibility of the presenceof the virus because antibodies are detectable before the end ofinfection. However, if admission is limited solely to users withantibodies, it is unlikely any new infections will take place in theAOC.

In an alternate embodiment, entry into an AOC can be detected by passingthrough a boundary defined using a location-based geofence (using GPS,WiFi, Bluetooth, audio signal matching, or other methods). When a userpasses through boundary (virtual POE), the system automatically detectsthe event and notifies the user and/or the entity in control of the AOC,and/or other users already inside the AOC of the pathogenic status ofthe user. In some use cases, the criteria for entry may allow users witha wide range of test result statuses to enter. For example, any user whohas been tested in the past two weeks may enter. However, other usersinside the AOC will be notified when users approach them (based onBluetooth signal, GPS, ultrasound ranging, or other proximitydetermination methods). If the approaching user does not meet thepre-configured criteria of the approached user, the system can notifyone or both users. An example of this use case is the sparsecongregation that takes place on a wilderness trip (hunting, camping,etc.) or the denser congregation of a music or art festival.

In an alternate embodiment, AOCs may be grouped (sequentially or in anarbitrary order). The system manages the entry criteria of a POE intoone or more of the grouped AOCs so the entry criteria of every AOC ismet. The system tracks the user's location, or detects if they leave (orenter) a set of geofenced areas and this history is considered by thePOE/AOC rules. For example, in the case of an international flight withan airline (or other flying regulatory agency) requirement of a negativeCOVID-19 test in the past 3 days and the destination country with apositive antibody test the system would require both conditions be metbefore clearing a person to board the flight. In another example, apackaged promotion consisting of a flight to Disneyland requires anegative COVID-19 test within 3 days and that the user take approvedtransportation, stay on the Disneyland property (or another accesscontrolled property) for the duration of time between arrival anddeparture for the return flight. The system tracks the location of thecustomer during their stay, and if they leave the controlled region(Disneyland, access-controlled lodging) or take non-approvedtransportation to or from the airport, they would fail the entryrequirement for the return fight. Another example is a ride sharingservice with a destination with system controlled access (a hospital ormuseum). The scan at pickup (or system query at ride booking time)considers the entry requirement of the ride destination beforescheduling the ride.

In an alternate embodiment, the system displays, in addition to the QRCode for POE, a QR Code (or other machine or human readable) entryticket (for a flight, concert, etc.) to simplify and speed processing atthe POE.

In an alternate embodiment, the system can accept test results fromprinted (or electronically displayed) test results byscanning/photographing the printed result, using OCR (or humantranscription) to extract the information, and verify the resultelectronically or manually.

In an alternate embodiment, the database 108B containing test results inFIG. 1 can be located in an external service, such as an AWS HIPAAcompliant datastore. Access to test results can be done using hashedkeys in a manner that retains overall system HIPAA compliance.

In an alternate embodiment, when the user initially signs up on (orstarts) the system application and/or when they import test results, thesystem collects one or more user biometrics (thumbprint, iris scan,photograph using the selfie camera or another method). These biometricscan be confirmed by the system, if required by POE/AOC rules, when thesystem generates a QR Code for POE/AOC access. In addition, or instead,the system application can present the photograph for gatekeeperinspection either on the user's mobile phone with the QR code (before orafter scanning by the gatekeeper) or on the gatekeeper's display device.

In an alternate embodiment, the system can optionally operate without auser application. The gatekeeper initiates a challenge/response cyclewith the system employing a unique user identifier, such as the user'stelephone number, or a customer record identifier indexing a recordcontaining the user's telephone number. This challenge can be initiatedwith a text message (or other method) to the system containing the queryrequest directly by the gatekeeper or through their point ofentry/ticket reading scanner system. The system of the invention sends aconfirmation SMS text to the user. If the user responds in theaffirmative, the system-calculated result is returned in the response tothe gatekeeper. In practical operation, the gatekeeper scans theboarding pass/concert ticket, etc. and the POE/AOC system queries thesystem of the invention. The user receives a text requestingauthorization to release their health record. When the user authorizesthe release of the health information via confirming text reply, thesystem transmits the rule-calculated result to the POE/AOC system. Inthe ‘pass’ case, the user's entry would be allowed.

A virtual POE may correspond to a physical entry point such as a doorwayinto a building or a gate into a fairground. An agent of the AOE may bestationed at a physical entry point to confirm all persons who pass areusers of the system. Confirmation can be made by physical inspection orthe system can automatically determine when a user is passing a virtualPOE and send notification to the POE/AOE. The notification could be usedto unlock a physical turnstile allowing the user to enter.

The system provides an ancillary benefit to society by motivatingwidespread testing among asymptomatic individuals allowing for earlydetection, treatment, and isolation. The system permits the efficientfiltering of people into a controlled area based on the results andelapsed time from pathogen tests and vaccinations. This filteringincreases confidence for all users in the safety of entering thecontrolled area. The system can be deployed to assist in restarting andcontinually operating businesses that require serving groups ofcustomers in close proximity with each other and/or with agents of thebusiness.

The disclosed system and method may provide a method of protectingindividual privacy while restricting entry into an area based on theindividual's condition as detailed a above. The system may also providecoordination of entry based on medical information prior obtained aboutan individual or by a wireless electronic device.

The system and method allow a user to demonstrate that the user is a lowrisk for spreading the disease (vaccination, by recent negative test).The AOC may be a vehicle, vessel or group and may provide time limitedaccess though a POE to the AOC. In some embodiments, the user could usea biometric confirmation step (using a fingerprint sensor on his mobiledevice or other biosensor- iris for example or voice) to confirm that heis the same person (as confirmed by his biometrics) that thedisplayed/presented medical information/record is about. Alternatively,for privacy, the user may show a redacted driver's license—enough toproperly identify the person (picture/name) but redact private info(address, birthdate, etc.). The system and method may also confirm thatthe target user's device is in fact belongs to that user using a methodof challenge/response, which can be one or more steps.

The system further provides a method of coupling the result of a medicaltest (or medical information such as vaccination) to the person/phonenumber/sim #/IMEI # of the computing device of the user and/or to couplethat person's medical record (received/retrieved from a medical testingoutputs) can be associated to this user by one or more methods of: Phonenumber, SIM # match, Name match, KTN (known traveler number/used byTSA/airlines) number, Passport number/clear account number and/ormatched via a visual picture. For matching with a visual picture, facialphoto recognition (matching the face of the person that was presented tothe testing lab/match that face to the face on the driver's licenseand/or match to the face as viewed by the user's mobile phone cameraand/or match to the face as presented to the challenger's image inputsystem such as an airline agent's personal mobile phone, an airport gateentry system (operated by TSA/Clear/an airline), etc.) may be used. Thematching may occur via a matching facial image/recognition (matching thefacial image that was presented at the place/time that the medical testwas given, then matching that at the time/point of entry to therestricted area). Furthermore, the system may match via a matching voiceprint recognition (again, matching the voice that was presented at theplace/time that the medical test was given, then matching that at thetime/point of entry to the restricted area) or perform matching via animage of the front or rear (sometimes a scannable bar code) of thatuser's driver's license or passport (again, matching the info that waspresented at the place/time that the medical test was given, thenmatching that at the time/point of entry to the restricted area).

The system and method may use a wearable item (bracelet, watch,smartwatch, ID tag etc)—worn on the wrist/leg/or otherwise on the body),or implanted into the user's body, for matching that contains ahologram/image/RFID chip or other electronic or optical or radio meansof identity as used for purposes of entry, as described herein, based onthat user's prior medical information (vaccination info, negative testresult info, or other info).

The architecture as shown in FIG. 1 may include one or more hashfunction to be able to identify the user or medical record, whileenhancing privacy. Furthermore, the architecture as shown in FIG. 1,with one or more data elements stored in an external (or the cloud) 3rdparty solution (e.g. Amazon AWS cloud service or similar), that is HIPAAcompliant (Health Insurance Portability and Accountability Act of 1996,commonly known as HIPAA), whereby personal info and/or medicalinformation is stored in the 3rd party HIPAA compliant data store, withassociated hashed data/indexes which correlate/link the externalpersonal ID information, with the internal HIPAA-protectedpersonal/medical data, with the goal of keeping the personal informationand medical information inside the HIPAA protected data storage, whileallowing external access (input: one or more identity info of this user,input: criteria of information requested, output: one or more ofpass/fail or finer detail (for example this person most recently had anegative test a predetermined number of days ago).).

In one example, the user may input a UniqueUserID, criteria and receivea Yes/No result. The UniqueUserID may be created when the user signups(via mobile or web etc) and user would extend an existing account andthe uniqueID is either created, or referenced to a prior uniqueID,associated to a new user signuped uniqueid, associated with one or moreprior uniqueID. An open API may be used which inputs any of a number ofuniqueID (or references a prior uniqueID—AA loyalty, United loyaltynumber, etc.). For example, a user books a flight, just to make areservation, my flight reservation is prior linked to my unique ID. Thenat a later time, but before entry time (for example, before a boardingpass is issued which is usually has to be within 24 hours of flight),the user has to make a final verification of valid medical informationwhich meets the criteria for this entry. For example, for a planeflight, a policy may be set (by the airlines, government, unions, locallaws, etc) that requires a person (the person flying) to have a definedmedical test that is valid within a predetermined number of hours/daysprior to boarding this flight. That person could, for example, reservehis plane flight one month in advance, would be advised of therequirement/type of test/for that specific flight, the person could bookthat flight reservation, but that person's ability to actually board theflight (or check-in luggage, or be issued a paper or electronic boardingpass, or other prior step) would require the successful verificationthat the required step or steps (getting a medical test a predeterminednumber of hours/days prior to entry/boarding) would need to be verified.

The disclosed method of verification of medical test/vaccination may bereceived by use of a link or pointer (as represented by a scannable QRcode, link, or other audio/electronic/visual/radio or otherrepresentation form) to that person's actual medical information. Forexample, a user who wishes to fly may visit a medical location (e.g.doctor's office, CVS, Walmart, or other store) to get his test. Thatperson is that given a link (a QR code, link in a text or email, aprinted receipt with that link/QR code/receipt number etc) on it, whichprovides a link to that person's test result (or vaccination)information. The challenger (airline/restaurant/hotel/cruiseline/concertvenue/entertainment facility/Disney park/school/etc) thenscans/enters/accesses that link (given from the user who got test, tothe challenger) who can then (from the challenger's mobile device orfixed equipment) see all or limited information resulting from thattest/vaccination, along with identifying information (i.e. person'spicture), along with criteria information (yes this test was givenmeeting some form of criteria—e.g. test was completed with the mostrecent predetermined number of hours/days/weeks/months/years). Using themethod, the challenger can quickly/easily verify that the personpresenting himself for entry has, in fact, met the criteria for entry).One or multiple types of identify/photos could be shown—for example aphoto of a user could be uploaded by himself, but another photo couldalso be taken by the testing facility too, thus one or more photos couldbe shown to the challenger, or used by this invention to verify that thesame person presenting himself for entry, was, in fact, the same personwho was tested/vaccinated, by use of facial photocomparison/recognition, or other matching.

A bi-directional method of two mobile devices facing each other may beused, with visual information (such as a QR code) presented by device A,which is then seen/viewed by device B's front facing camera, then theopposite also: visual information (such as a QR code) presented bydevice B, which is then seen/viewed by device A's front facing camera,as a method of challenge/response.

The disclosed system provides a method of linking, storing, or accessingpersonal medical information (vaccination history, recent medical testresult information), via one or more direct/indirect links orassociated, via an online service (such as a social network likeFacebook, a travel service like Expedia, etc) which is used as a sharedaccount in order to store or transfer anonymized (e.g. hashed or othersimilar techniques) links or pointers to medical data (which may bestored in yet another location), but automated access by the “entrypoint” challenger. For example, a user may store his CVS customer numberor a hash of his CVS customer number (or other identifying information)on my profile at Expedia (or a specific airline), or Facebook. The userthen visit any CVS which then inserts my most recent test into mypersonal CVS record. Automatically, prior to my flight, my airline (orvia Expedia or Facebook etc) would access my most recent medical testinformation, indirectly via one or more linkages, such that the airlineautomatically has access to my most recent test information, as providedby the one or more links that the user has provided.

The system further provides a method of automatically searching my oneor more provided associations/links/pointers to my medical data, withthe specific search criteria being my “most recent” test result whichmeets the input criteria. The system further provides a method ofassociating medical record(s) to the user using one or more scans (QRcodes), email links, second factor methods, facial or other biometricassociation, phone number/SIM #/IMEI # or other hardware itemidentifiers (wearable ID # such as an apple watch ID # or fitbit ID #),such that the test provider scans/links/associated the informationassociated with a test, to the user or the user's device. The systemfurther provides a method of associating medical record of the user tothe user by means of one or more physical cards (such as an existingcredit card, credit card magnetic stripe, credit card chip EMV/RFID,RFID chip, passport with an embedded RFID chip, etc), with at least oneother type of associating information on that card (such as a picture ofthe user). The system further provides a method of associating themedical record of the user to the personal mobile device of the user, bymeans of biometric verification, hashed data stored in my phone,associated to a TPM of hardware (laptop) device, SIM #, IMEi #, secureenclave area of my mobile device, etc.

The system further provides a method of associating a person's medicaldata, as direct data or associated/linked data that is stored or linkedor processed, in any form, by a mobile device's secure enclave area.With Apple's Secure Enclave and ARM's TrustZone, the Secure Enclave orTrustZone is not technically a different “chip.” Instead, it's aseparate, isolated processor built into the device's mainsystem-on-a-chip. While it's built-in, it still has a separate processorand area of memory. Think of it as a chip inside the main chip. Eitherway-whether it's Titan M, Secure Enclave, or TrustZone-the chip is aseparate “coprocessor.” It has its own special area of memory and runsits own operating system. It's completely isolated from everything else.In other words, even if your entire Android or iOS operating system wascompromised by malware and that malware had access to everything, itwouldn't be able to access the contents of the secure area.

The system further provides a method of associating a person's medicaldata, as direct data or associated/linked data that is stored or linkedor processed, in any form, to a method of payment (such as ApplePay), orto groups of payment methods. For example, if a user used a paymentmethod (for example ApplePay) to pay for the medical test of the user,then the user used that (or a related method of payment) for my ticketpurchase (airplane fare, concert purchase, movie ticket, etc.), then themedical test result of the user would be automatically linked to thatentry point (onto the airplane, into a movie theater, etc), allowing aperson to coordinate his medical information in a low-friction,automated means. In another embodiment, the user uses a VISA card to payfor the medical test (or the VISA card is associated with the CVSaccount, and the user gets the medical test at CVS), then the user coulduse a different but associated credit card to purchase/verify the pointof entry of the user. The user's multiple payment methods could be“coupled” through the multi-bank memberships of the VISA credit cardcommunity, such that the user can use one VISA card to pay for themedical test, yet use a different VISA card to buy a movie ticket. Inthis case, VISA would act as a 3rd-party to associate the medical testinformation paid for by one VISA card with the entry authorization paidfor by a separate VISA card. Other 3rd parties, for example creditbureaus (for example Equifax) could also act to associate differentforms of payments to the medical information of the user as well. Theuser could associate (for example all of the various credit cards) toall be associated with the medical information, for purposes ofmatching/storing/accessing the medical information.

The system further provides a method of linking personal medical testinformation (test results, vaccination history, etc) of the user withgovernment or other entity issued identity (passport, driver's license,social security card, DOD identify card, RFID card, Disney parksbracelet)—paper, passport number, passport RFID chip, etc. Thus, whenthe user wants to enter an area (into an airport, airport building,airport gate, airplane etc. or enter into Disneyland) the identity ofthe user (as issued by the government or other entity) is presented inorder to link/access to associated medical information. Such medicalinformation could be stored in/on the identity presented itself, orlinked to medical information which is housed/stored in another location(in the cloud or other location).

The system further provides a method of additional/further verification(that this person is the same person who got tested/vaccinated) by meansof matching facial recognition, voice print matching, Personal identitynumber (PIN) verification, biometric matching (fingerprint/IRIS/etc.),personal equipment (mobile device) identity information,challenge/response test or a serial of questions (what is your mother'smaiden name, which street do you live on in 1995, etc.),challenge/response based on the questions/answers in my personal creditreport, challenge/response based my financial transactions/informationor account information, challenge/response based on my physicalbehaviors (the style/force/speed, arcs/tendencies of how the userinteracts with my mobile phone), the personal written (on a digitizingpad) of a written signature style, passwords known to the user, andother second-factor methods etc.

The system further provides a method of additional/further verification(that this person is the same person who got tested/vaccinated) by meansof matching instant DNA data of the user with the DNA data priorobtained or referenced. The biometric confirmation could be done on mypersonal mobile device (mobile phone), or by a challenger's equipment(for example a fingerprint scanner at an airport gate, and/or associatedwith a fingerprint scanner at the medical test provider).

The foregoing description, for purpose of explanation, has been withreference to specific embodiments. However, the illustrative discussionsabove are not intended to be exhaustive or to limit the disclosure tothe precise forms disclosed. Many modifications and variations arepossible in view of the above teachings. The embodiments were chosen anddescribed in order to best explain the principles of the disclosure andits practical applications, to thereby enable others skilled in the artto best utilize the disclosure and various embodiments with variousmodifications as are suited to the particular use contemplated.

The system and method disclosed herein may be implemented via one ormore components, systems, servers, appliances, other subcomponents, ordistributed between such elements. When implemented as a system, suchsystems may include and/or involve, inter alia, components such assoftware modules, general-purpose CPU, RAM, etc. found ingeneral-purpose computers,. In implementations where the innovationsreside on a server, such a server may include or involve components suchas CPU, RAM, etc., such as those found in general-purpose computers.

Additionally, the system and method herein may be achieved viaimplementations with disparate or entirely different software, hardwareand/or firmware components, beyond that set forth above. With regard tosuch other components (e.g., software, processing components, etc.)and/or computer-readable media associated with or embodying the presentinventions, for example, aspects of the innovations herein may beimplemented consistent with numerous general purpose or special purposecomputing systems or configurations. Various exemplary computingsystems, environments, and/or configurations that may be suitable foruse with the innovations herein may include, but are not limited to:software or other components within or embodied on personal computers,servers or server computing devices such as routing/connectivitycomponents, hand-held or laptop devices, multiprocessor systems,microprocessor-based systems, set top boxes, consumer electronicdevices, network PCs, other existing computer platforms, distributedcomputing environments that include one or more of the above systems ordevices, etc.

In some instances, aspects of the system and method may be achieved viaor performed by logic and/or logic instructions including programmodules, executed in association with such components or circuitry, forexample. In general, program modules may include routines, programs,objects, components, data structures, etc. that perform particular tasksor implement particular instructions herein. The inventions may also bepracticed in the context of distributed software, computer, or circuitsettings where circuitry is connected via communication buses, circuitryor links. In distributed settings, control/instructions may occur fromboth local and remote computer storage media including memory storagedevices.

The software, circuitry and components herein may also include and/orutilize one or more type of computer readable media. Computer readablemedia can be any available media that is resident on, associable with,or can be accessed by such circuits and/or computing components. By wayof example, and not limitation, computer readable media may comprisecomputer storage media and communication media. Computer storage mediaincludes volatile and nonvolatile, removable and non-removable mediaimplemented in any method or technology for storage of information suchas computer readable instructions, data structures, program modules orother data. Computer storage media includes, but is not limited to, RAM,ROM, EEPROM, flash memory or other memory technology, CD-ROM, digitalversatile disks (DVD) or other optical storage, magnetic tape, magneticdisk storage or other magnetic storage devices, or any other mediumwhich can be used to store the desired information and can accessed bycomputing component. Communication media may comprise computer readableinstructions, data structures, program modules and/or other components.Further, communication media may include wired media such as a wirednetwork or direct-wired connection, however no media of any such typeherein includes transitory media. Combinations of the any of the aboveare also included within the scope of computer readable media.

In the present description, the terms component, module, device, etc.may refer to any type of logical or functional software elements,circuits, blocks and/or processes that may be implemented in a varietyof ways. For example, the functions of various circuits and/or blockscan be combined with one another into any other number of modules. Eachmodule may even be implemented as a software program stored on atangible memory (e.g., random access memory, read only memory, CD-ROMmemory, hard disk drive, etc.) to be read by a central processing unitto implement the functions of the innovations herein. Or, the modulescan comprise programming instructions transmitted to a general-purposecomputer or to processing/graphics hardware via a transmission carrierwave. Also, the modules can be implemented as hardware logic circuitryimplementing the functions encompassed by the innovations herein.Finally, the modules can be implemented using special purposeinstructions (SIMD instructions), field programmable logic arrays or anymix thereof which provides the desired level performance and cost

As disclosed herein, features consistent with the disclosure may beimplemented via computer-hardware, software, and/or firmware. Forexample, the systems and methods disclosed herein may be embodied invarious forms including, for example, a data processor, such as acomputer that also includes a database, digital electronic circuitry,firmware, software, or in combinations of them. Further, while some ofthe disclosed implementations describe specific hardware components,systems and methods consistent with the innovations herein may beimplemented with any combination of hardware, software and/or firmware.Moreover, the above-noted features and other aspects and principles ofthe innovations herein may be implemented in various environments. Suchenvironments and related applications may be specially constructed forperforming the various routines, processes and/or operations accordingto the invention or they may include a general-purpose computer orcomputing platform selectively activated or reconfigured by code toprovide the necessary functionality. The processes disclosed herein arenot inherently related to any particular computer, network,architecture, environment, or other apparatus, and may be implemented bya suitable combination of hardware, software, and/or firmware. Forexample, various general-purpose machines may be used with programswritten in accordance with teachings of the invention, or it may be moreconvenient to construct a specialized apparatus or system to perform therequired methods and techniques.

Aspects of the method and system described herein, such as the logic,may also be implemented as functionality programmed into any of avariety of circuitry, including programmable logic devices (“PLDs”),such as field programmable gate arrays (“FPGAs”), programmable arraylogic (“PAL”) devices, electrically programmable logic and memorydevices and standard cell-based devices, as well as application specificintegrated circuits. Some other possibilities for implementing aspectsinclude: memory devices, microcontrollers with memory (such as EEPROM),embedded microprocessors, firmware, software, etc. Furthermore, aspectsmay be embodied in microprocessors having software-based circuitemulation, discrete logic (sequential and combinatorial), customdevices, fuzzy (neural) logic, quantum devices, and hybrids of any ofthe above device types. The underlying device technologies may beprovided in a variety of component types, e.g., metal-oxidesemiconductor field-effect transistor (“MOSFET”) technologies likecomplementary metaloxide semiconductor (“CMOS”), bipolar technologieslike emitter-coupled logic (“ECL”), polymer technologies (e.g.,silicon-conjugated polymer and metal-conjugated polymer-metalstructures), mixed analog and digital, and so on.

It should also be noted that the various logic and/or functionsdisclosed herein may be enabled using any number of combinations ofhardware, firmware, and/or as data and/or instructions embodied invarious machine-readable or computer-readable media, in terms of theirbehavioral, register transfer, logic component, and/or othercharacteristics. Computer readable media in which such formatted dataand/or instructions may be embodied include, but are not limited to,non-volatile storage media in various forms (e.g., optical, magnetic orsemiconductor storage media) though again does not include transitorymedia. Unless the context clearly requires otherwise, throughout thedescription, the words “comprise,” “comprising,” and the like are to beconstrued in an inclusive sense as opposed to an exclusive or exhaustivesense; that is to say, in a sense of “including, but not limited to.”Words using the singular or plural number also include the plural orsingular number respectively. Additionally, the words “herein,”“hereunder,” “above,” “below,” and words of similar import refer to thisapplication as a whole and not to any particular portions of thisapplication. When the word “or” is used in reference to a list of two ormore items, that word covers all of the following interpretations of theword: any of the items in the list, all of the items in the list and anycombination of the items in the list.

Although certain presently preferred implementations of the inventionhave been specifically described herein, it will be apparent to thoseskilled in the art to which the invention pertains that variations andmodifications of the various implementations shown and described hereinmay be made without departing from the spirit and scope of theinvention. Accordingly, it is intended that the invention be limitedonly to the extent required by the applicable rules of law.

While the foregoing has been with reference to a particular embodimentof the disclosure, it will be appreciated by those skilled in the artthat changes in this embodiment may be made without departing from theprinciples and spirit of the disclosure, the scope of which is definedby the appended claims.

What is claimed:
 1. A method of entry testing for an area ofcongregation having one or more points of entry, comprising: receiving apathogen test of a user at a safe entry monitoring system for the areaof congregation, a pathogen test result being manually entered into thesafe entry monitoring system before arrival at a particular point ofentry of the area of congregation; performing, at the safe entrymonitoring system, verification of the manually entered pathogen testresult; and determining, using a computer system of the safe entrymonitoring system at the particular point of entry of the area ofcongregation, entry of the user into the area of congregation based onthe result of the pathogen test of the user.
 2. The method of claim 1,wherein performing verification of the pathogen test result furthercomprises one of matching the pathogen test result to an identifier ofthe user, using anti-fraud imaging techniques, automated calling of theuser, calling the user and calling by the user to the safe entrymonitoring system.
 3. The method of claim 1, wherein determining entryof the user further comprising denying access to the area ofcongregation though the particular point of entry when the pathogen testdoes not meet an entry requirement and granting access to the area ofcongregation though the particular point of entry when the pathogen testmeets the entry requirement.
 4. The method of claim 3, wherein receivingthe pathogen test of the user further comprises receiving a medicalpathogen test result of the user for an infection by the pathogen andwherein the entry requirement is a negative medical pathogen test resultwithin a period of time of entry into the area of congregation.
 5. Themethod of claim 3, wherein receiving the pathogen test of the userfurther comprises receiving a vaccination for the pathogen and whereinthe entry requirement is a completed vaccination.
 6. The method of claim1, wherein the area of congregation is one of an airplane, an airport, abuilding, a vehicle and a venue.
 7. The method of claim 3, whereindetermining entry of the user further comprising performing a rule-basedinterpretation of the pathogen test to determine the entry requirement.8. The method of claim 1 further comprising receiving an SMS text at thesafe entry monitoring system authorizing release of the pathogen test.9. The method of claim 3, wherein determining entry of the user at theparticular point of entry further comprises verifying, by the safe entrysystem that controls the particular point of entry, an identity of theuser using identifying information of the user.
 10. The method of claim9, wherein the user identifying information is one of a name of theuser, a photograph of the user, a fingerprint of the user and a facialscan of the user.
 11. The method of claim 4, wherein the manuallyentered pathogen test results further comprises a photograph of medicalpathogen test results.
 12. The method of claim 1 further comprisingperforming a biometric match between a biometric parameter of the usertaken at the time of the test and the same biometric parameter taken atthe point of entry.
 13. The method of claim 12, wherein performing thebiometric match further comprises performing automatic facialrecognition between a facial photo taken at the time of the test and afacial photo taken at the point of entry.
 14. A system, comprising: asafe entry monitoring system that controls access to an area ofcongregation having one or more points of entry, each point of entryhaving a safe entry monitoring computer device to determine if a usercan gain access to the area of congregation; a pathogen test of a userthat is received by the safe entry monitoring system, the pathogen testbeing manually entered into the safe entry monitoring system beforearrival at a particular point of entry of the area of congregation; thesafe entry monitoring computer device at a particular point of entry ofthe area of congregation being configured to perform verification of themanually entered pathogen test result and determine entry of the userinto the area of congregation based on the pathogen test.
 15. The systemof claim 14, wherein the safe entry monitoring computer device at aparticular point of entry of the area of congregation is furtherconfigured to deny access to the area of congregation though theparticular point of entry when the pathogen test does not meet an entryrequirement and grant access to the area of congregation though theparticular point of entry when the pathogen test meets the entryrequirement.
 16. The system of claim 14, wherein the safe entrymonitoring computer device at a particular point of entry of the area ofcongregation is further configured to perform the verification by one ofa match between the pathogen test result and an identifier of the user,an anti-fraud imaging technique, an automated call to the user, a callto the user and calling by the user to the safe entry monitoring system.17. The system of claim 14, wherein the pathogen test of the userfurther comprises a medical pathogen test of the user for an infectionby the pathogen and wherein the entry requirement is a negative medicalpathogen test within a period of time of entry into the area ofcongregation.
 18. The system of claim 14, wherein the pathogen test ofthe user further comprises a vaccination for the pathogen and whereinthe entry requirement is a completed vaccination.
 19. The system ofclaim 14, wherein the area of congregation is one of an airplane, anairport, a building, a vehicle and a venue.
 20. The system of claim 15,wherein the safe entry monitoring computer device at a particular pointof entry of the area of congregation being further configured to performa rule-based interpretation of the pathogen test to determine the entryrequirement.
 21. The system of claim 14, wherein the safe entrymonitoring computer device at a particular point of entry of the area ofcongregation being further configured to receive an SMS message from theuser authorizing release of the pathogen test.
 22. The system of claim14, wherein the safe entry monitoring computer device at a particularpoint of entry of the area of congregation being further configured toverify an identity of the user using identifying information of theuser.
 23. The system of claim 22, wherein the user identifyinginformation is one of a name of the user, a photograph of the user, afingerprint of the user and a facial scan of the user.
 24. The system ofclaim 17, wherein the pathogen test further comprises a photograph ofresult of the medical pathogen test.
 25. The system of claim 14, whereinthe safe entry monitoring computer device at a particular point of entryof the area of congregation being further configured to perform abiometric match between a biometric parameter of the user taken at thetime of the test and the same biometric parameter taken at the point ofentry.
 26. The system of claim 25, wherein the safe entry monitoringcomputer device at a particular point of entry of the area ofcongregation being further configured to perform automatic facialrecognition between a facial photo taken at the time of the test and afacial photo taken at the point of entry.
 27. A system, comprising: asafe entry monitoring system that controls access to an area ofcongregation having one or more points of entry, each point of entryhaving a safe entry monitoring computer device to determine if a usercan gain access to the area of congregation; a computer system of a userthat communicates a pathogen test of the user to the safe entrymonitoring system, the pathogen test being manually entered into thesafe entry monitoring system at a particular point of entry of the areaof congregation; the safe entry monitoring computer device at aparticular point of entry of the area of congregation being configuredto perform verification of the manually entered pathogen test resultagainst an identification of the user and determine entry of the userinto the area of congregation based on the pathogen test.